Understanding Circle Founder's "Agentic Economy" Treatise: Deciphering How the Economic Landscape Will Be Reshaped in the Next Decade

Odaily星球日报Published on 2026-07-15Last updated on 2026-07-15

Abstract

This text summarizes the key points from Jeremy Allaire's treatise "The Agentic Economy." It argues that the convergence of AI agents (driving the cost of thought and work toward zero) and blockchain-based onchain economies (driving transaction costs toward zero) are not separate trends but two facets of a single, emerging economic system. The core premise is that AI agents will decompose traditional corporate functions into automatable skills, managed by an "orchestration layer." This demands a new economic infrastructure built on fully-backed, programmatic stablecoins for fast, final settlement and machine-speed payments. Trust is enabled through an "accountability chain" linking agents to verified real-world identities on public blockchains. The treatise explores how this native global system reshapes credit (through machine underwriting and agent working capital), software pricing (shifting from subscriptions to consumption/pay-per-work), and corporate structure (leading to hybrid "onchain companies"). It frankly addresses significant risks: a potential decline in labor's share of income and dangerous concentration of power at control points like identity layers and dominant currency issuers. The concluding "Civic Vision" argues the solution is not to defend old jobs but to deliberately design for broad ownership of productive capital (agents, models, infrastructure) to distribute prosperity. It acknowledges that achieving this equitable outcome is a political and desi...

Original article by Circle Founder Jeremy Allaire

Compiled by| Odaily Planet Daily Qin Xiaofeng(@QinXiaofeng 888 )

Editor's Note: On July 13, Circle founder Jeremy Allaire published a research paper titled "The Agentic Economy," exploring the convergence of AI Agents with future economic systems. Allaire stated that as AI Agents begin to take on corporate work, and value natively flows through open, programmable networks, the Agentic Economy and the Onchain Economy will ultimately become two sides of the same economic system.

"This treatise is the culmination of my decades of work building internet infrastructure, and it crystallizes a question I've focused on from the very beginning: how open software and open networks can reshape not only how we share information but also our social, political, and economic landscape. Many of the ideas in the paper stem from two core beliefs that emerged when I founded Circle. First, money can flow via open protocols just like information flows on the open internet. Second, blockchain is a network computer: it's a foundational platform where autonomous software and machines can store value, exchange value, and coordinate economic activity directly, without human intervention." Allaire explained the motivation behind his research.

He added that these initial ideas have been refined over time, culminating in a deeper understanding of how financial and economic systems merge with software and the internet. As this fusion converges with the emergence of truly powerful AI and agent systems, this theory has expanded further: it not only describes a new type of currency or network, but a fundamentally new mode of economic operation, and the impact of this mode on humanity, labor, capital, ownership, and the new social contract. This is precisely what this book aims to explore.

The original paper is 89 pages long. Those interested can download and read the full text:https://agenticeconomytreatise.com/treatise/index.html; Odaily Planet Daily has compiled a summary of itskey points, enjoy~

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01 The Convergence and Deconstruction of the Firm

Every major shift in the internet era follows the same path: it doesn't stem from a single invention, but from multiple technologies maturing individually and suddenly converging. Networks, mobile, cloud, and social media are all examples of such convergence, repeating the same underlying pattern.

The Law of Convergence

When capabilities converge, things that were once expensive approach zero cost, and once cost is zero, the scale of that activity explodes. This has been true for information with networks, communication with mobile and social, and software with the cloud.

Today, two new systems are converging, directing the same force toward two areas the internet has never fully digitized: intelligence itself and the economy itself. The first is the intelligence system, comprised of AI models and the agents built on them, which is driving the cost of thinking and working toward zero. The second is the economic system, comprised of blockchains, where money, contracts, and coordination run as software, driving the cost of transacting toward zero. They empower each other, and the core thesis of this entire treatise is: these are not two parallel trends, but two sides of the same economy.

Two Operating Systems

The intelligence system is most critical because it changes the nature of software.

You no longer program; you issue instructions in natural language, and it reasons toward an answer rather than following fixed steps. Its basic unit is the Agent: a reasoning process to which you delegate a task. This shifts software from a program a machine executes verbatim to work you can delegate to a thinking machine, allowing the core tasks of a firm to be decomposed and reconstituted as skills an agent can perform.

Beneath the brand and the building, a company is essentially organized thinking: product, marketing, sales, finance, legal, plus the external firms it hires. These are almost entirely human labor, the largest cost in the economy, and exactly what cheap, powerful intelligence targets.

Firm Decomposition

It also upends traditional explanations for why firms exist. Firms grew because coordinating external work was costly, so they internalized it; when any non-physical work can be done by an agent you can find, hire, and pay instantly, that logic is weakened, and one person can do what once took a department.

It arrives first in software and other information-intensive work, slowest in physical realms, pending robotics breakthroughs. This isn't just about cutting personnel: one person paired with powerful agents becomes vastly more productive, while judgment, relationships, and ultimate responsibility remain human. This leaves a tension to explore later, addressed through ownership in the argument: even if the proportion of the economy paid to human labor declines, individual capability can be amplified.

Click to read Section 1:https://agenticeconomytreatise.com/treatise/section-1.html

02 Assembly, Coordination, and Why Firms Go Onchain

Once a firm is decomposed into skills, the real question isn't which can be automated, but how these pieces are put back together.

The answer is the orchestration layer: a General Manager Agent receives a goal, breaks it into tasks, assigns them to specialized agents, and stitches the results, with companion software passing context and memory between steps. The same mechanism applies to any function, so marketing, finance, sales, and product are essentially the same machine applied to different jobs.

Humans don't disappear. Some remain inside the loop, performing or checking work requiring human judgment. Others rise above the loop, setting goals, defining standards, monitoring quality, and deciding when the machine should stop and ask. This shift from doing work to overseeing work is the real form of human supervision, and the tools are arriving.

Orchestration Layer

When a company structures a task clearly enough to operate it internally, it's clear enough to be hired externally, so an open agent market forms almost as a byproduct.

This market could go two ways. It could evolve into a few large platforms selling intelligence like a utility, or, more likely and more interestingly, into a real labor market of specialized agents because deep expertise still holds value, and durable firms will be agents that specialize in one thing.

But hiring software assembled from anywhere in the world requires you to be able to trust it, and that's the problem pushing everything onchain.

The solution is layered identity. At the base, public blockchains verifiable by anyone. On top, real-world identity verification, the same run at scale by banks, the agent's own wallet and credentials, and reputation accumulated over time but tied to verified real creators. Together, these form a chain of accountability: every action by an agent can be traced to a real person or company responsible for it.

Integrity First, Accountability Throughout

A single company's private database can't do this because trust locked inside a single operator doesn't transfer, while identity rooted in public chains and real-world verification does. Thus, autonomy here is not anonymity. Behind an agent acting autonomously, there is always a person accountable for it.

Chain of Accountability

Click to read Section 2:https://agenticeconomytreatise.com/treatise/section-2.html

03 The Monetary Base: Speed, Safety, and Finality

Agents need money they can hold and move at machine speed, in any size, without stopping to verify the money itself is reliable with each payment. The last point is key, pointing to a classical answer: fully backed, settlement-final, money running on an open network.

Speed Replaces Leverage

Start with speed because it reshuffles everything else.

When moving money costs nearly zero, settles instantly, and can be controlled by software, the same dollar can be reused many times in a short period, any amount can be spent the moment it arrives, and tiny payments between agents finally become viable. This is exactly the pattern information and software already follow on the internet, now extended to money.

Each part of the answer exists for a reason.

A natural objection is that banks create speed by lending out the same deposit repeatedly, so wouldn't full backing kill credit? No: when money turns over fast enough, a dollar can be locked for seconds and then lent, so speed plays the role leverage once did, and credit rebuilds on top, not canceled.

Why Base Money Should Not Take Risk

Why insist base money can't have any risk? Because speed makes risky money dangerous in proportion to how fast it moves. A bank run that once took weeks can now happen in minutes, and agents settling instantly cannot stop to judge if each dollar is sound.

Fully backed money is the only money worth exactly one dollar to everyone, everywhere, without relying on national safety nets that can't cover a global system. Settlement must be equally certain: not final after some time, but final within a second; settlement is settlement.

Institutional Architecture

Refunds and fraud protection still exist, but as optional layers built on top, like custody, refund pools, and insurance, not baked into the money itself. These safeguards don't apply automatically; they rely on real institutions being built, large regulated issuers with bankruptcy-remote structures and reserves secured in increasingly safe ways.

One line must be sharp: holding money earns no yield. Reserve earnings go to the issuer and flow into the ecosystem, but when you seek yield, you are no longer holding money but lending it and taking risk. Blurring the two collapses the entire safety argument.

Click to read Section 3:https://agenticeconomytreatise.com/treatise/section-3.html

04 Credit Markets: Machine Underwriting, Agent Working Capital, and the Prudential Layer

When base money is fully backed, credit doesn't vanish; it moves to the other side of that line and returns stronger, reaching more people, priced more precisely, and failing more visibly than the system it replaces.

The Long Tail Under Underwriting Constraints

The key is reframing the problem. A huge number of borrowers—small businesses, gig workers, households, and now agents—are underserved not because they are risky, but because the cost of underwriting each tiny loan exceeds the loan's value. Credit rationing is driven by underwriting cost, not borrower quality. Lower that cost, and a whole population of creditworthy but neglected borrowers becomes servable.

The Data Flywheel

What pushes the cost down is a data flywheel: onchain activity is structured, verifiable, and real-time, allowing risk models far better than the patchy records of the past; better data leads to better loans, which attracts more activity and more data.

One naturally worries this puts everyone's finances on a public ledger, to which the answer is simple: onchain does not mean public. New privacy tech lets people prove what a lender needs to know—say, their credit standing or loan balance—without revealing the specifics.

Onchain Is Not Public

At the core is a genuinely new kind of loan: working capital for agents. It is exceptionally predictable because it removes the biggest variable in human lending—whether the borrower will choose to repay—collapsing risk to a short-cycle, bounded question about a specific piece of work.

Agent Working Capital

Imagine an agent borrowing four dollars of compute to finish a ten-dollar job it has already been hired for. The lender isn't guessing character; it is pricing the probability the work is accepted. Collateral flips the usual model: instead of slowly seizing unrelated assets through courts, the loan is first secured by the payment for the work itself, claimed automatically, backed by a deposit from the agent, its reputation, and ultimately the real person behind it.

The result is credit that is cheaper, more available, and simultaneously safer, which seems impossible until you realize the gain comes from better information, not more lending.

The honesty the claim requires is that this predictability wears off over time: tasks done in seconds are nearly mechanical, while financing over months reverts to ordinary risk.

Thus, machine credit does not replace human credit; it becomes a new low-risk baseline against which human loans are priced.

And, all of it is monitored: risk becomes visible as it accumulates, automatic brakes make piling into the same pattern or provider steadily more expensive, and insurance is priced on actuals, not stale averages.

Click to read Section 4:https://agenticeconomytreatise.com/treatise/section-4.html

05 Natively Global

The architecture comes in exactly three layers.

The bottom is money: stablecoins as unit of account and final settlement. The middle is the economic operating system: coordination, contracts, and value exchange run as programmable smart contracts with final settlement. The top is the agent execution layer: the actual work happens here, powered by AI and the cloud.

What matters about these three is where they live. Each is software; each runs on the internet. Each also displaces something once bound to nations: software money displaces national banking systems stitched together by slow correspondent banks; the middle layer moves contract enforcement from national courts to code that runs the same everywhere; agent execution replaces local labor with work that has no hometown.

An economy built on these layers is therefore borderless by default. This is what "natively global" means: not an added feature, but an inherent property of its materials. Historically, economic activity was national first, crossing borders took extra work; now, economic activity is global first, and the national frame is what gets added afterward.

No Single Native Jurisdiction

An economy without a homeland does not escape law; it is subject to too many laws, with rules from many jurisdictions in conflict and no single place to decide which applies. The resolution shifts the question from "where did something happen" to "who is behind it," regulating the accountable entity each agent traces back to, while the country where the user actually lives sets conditions for market access.

Enforcement moves to the edge, where money and identity cross between the open world, the regulated world, and the private world, checking before payment settles, not reporting after clearing. This doesn't require a public ledger of everyone's finances: disclosure stays private by default, shared only with permission.

A healthy system also preserves a genuinely private space, the digital equivalent of cash, so control resides at the regulated edge, not the core. The most powerful tool—the ability to freeze or claw back funds—is only legitimate under real due process: recorded, time-bound, multi-party, and with appeal.

Multi-Currency Money and Invisible FX

Currency exchange also becomes invisible because as each major currency goes onchain, you hold yours, the other party gets theirs, and the conversion happens at the best rate underneath. Sovereignty is reshaped, not lost: a neutral network precisely lets a nation issue its own currency on the same rails, rather than depending on someone else's.

The real danger lies in the transition, not the endpoint, because people can flee weak currencies faster than ever, so it must be managed.

This economy has both equalizing and centralizing tendencies, concentration is the default, and broad sharing is the harder, buildable alternative. The same machine that can enforce accountability can also enforce censorship; the choice is ours.

Click to read Section 5:https://agenticeconomytreatise.com/treatise/section-5.html

06 The Supply Side: From Subscriptions to Consumption

The agent economy needs a supply side—services that agents can call, hire, and pay for—and it forms in two waves.

First, existing software and data wrap themselves for machines to use, priced for agents, not people. Second, new specialized agents are built, going deep in one domain and selling their work. The deeper shift is in pricing: value shifts from access to work output, resetting software businesses.

For three decades, software sold by the seat, charging periodic fees to people who log in. But the customer now is an agent performing tasks, so the purchase is the work itself, not the login. The seat dies as a billing unit, though subscriptions won't vanish; pricing reshapes around new units of work in multiple forms, from pay-as-you-go to committed budgets to pricing on delivered outcomes.

The same logic goes one layer down, and that's where the money flows.

As specialized agents proliferate, what buyers purchase from agents is outcomes, not raw output from models, and agents will shop among competing models to complete jobs as cheaply as quality allows.

Models as Cost, Agents as Business

This is already happening: tools that route each request to the best model went from optional to essential within a year, price gaps between models are so large that using an expensive model for simple tasks is pure waste. Thus, models become cost items, agents become the business itself, and value flows to the party that owns the customer, the context, and the responsibility for results.

This is a tendency, not a law, because the makers of the very best models hold real pricing power on the hardest tasks and can move up into the agent layer themselves; the likely outcome is a barbell structure, with a large middle commoditized and the frontiers holding value.

The Age of Micropayments for Labor Arrives

Below this, an old dream finally comes true: micropayments. They never took off on the consumer internet partly because settlement was expensive, but mostly because people hated deciding if every little thing was worth a penny.

Machines have no such hesitation, settlement is now near-free, so micropayments finally arrive, not for content, but for tiny units of work between agents.

The optimistic narrative misses one problem: if agents can hire other agents and tools on their own, spending can spiral out of control quickly, so the economy needs a spending control layer with caps, budgets, and approvals, itself becoming a product category, completing the vision rather than undermining it.

Click to read Section 6:https://agenticeconomytreatise.com/treatise/section-6.html

07 The Onchain Firm

As agents take on more and more of a firm's work, the firm itself needs a new home.

A company whose work is done by agents holding money, signing contracts, and acting 24/7 needs a place where that can actually happen: where money moves programmatically, rules run as software, and external transactions settle at machine speed. That place is the onchain economy.

Two Parallel Paths

Therefore, the agentic firm and the onchain firm are actually two sides of the same thing, one describing who does the work, the other describing the form the work takes. This is the core of the entire treatise: an economy run by software agents must run on software money, software contracts, and software governance, or it cannot function at all.

This does not mean—and this distinction matters more than any other—that every firm dissolves into a token-governed collective.

The future is a hybrid, advancing along two tracks.

On one track, existing firms gradually bring their shares and governance onchain while keeping their familiar legal forms, a slow change driven by the most cautious institutions in finance.

On the other track, new, highly agentic firms build onchain from day one, pulling everyone else forward. Even these new firms don't escape law by being born in software: legal existence and limited liability come from governments, not lines of code, so they still need a thin legal wrapper. What flips is the proportion: the legal wrapper becomes thin, and the onchain working entity becomes thick.

Even De Novo Needs a Wrapper

Two caveats keep this honest. First, shared ledgers can prove what happened, in what order, by whom—a real advance—but they cannot prove whether an action was authorized, wise, or loyal; a perfect record of self-interested trades is still self-interested trading. The ledger is a better witness, not a better conscience, so responsibility still falls on the humans who designed the agent and are meant to oversee it.

Second, contracts become programs in how they execute, running automatically in common, clear cases, but remain legal documents in how they are adjudicated, because code runs verbatim while law makes room for intent, mistakes, and fraud.

The best way to think about it is a reliable core, with human judgment at the edges, handling the few disputed cases with external data feeds, arbitration, and shared, time-bound, recorded override mechanisms, because ultimately, who holds the override key holds the firm.

Click to read Section 7:https://agenticeconomytreatise.com/treatise/section-7.html

08 Impact and Power Concentration

The agent economy holds this era's greatest opportunity and its sharpest risk in the same hand; they are not two futures to choose between but joint outcomes of the same machine, their balance undecided.

Start with labor, stating it carefully enough to withstand the oldest objection in economics. The claim is not that automation destroys jobs overall—an assumption disproven for two centuries. The real issue is the share of national income going to human labor and the wages human work can command. People may still be employed on tasks where machines are weakest, but the pay for those jobs drops below what sustains a household, which is full employment on paper, crisis in practice.

Labor Share, Not Employment

This holds if software takes new tasks faster than people can retrain; if the price of agent labor falls with computing costs, pulling wages down; and if—the break from all past waves—capital can finance its own growth, money earned by agents used to build more agents. A loom never earned the money to buy the next loom; an agent can.

Capital → Software → Capital Loop

Two honest caveats keep this from fatalism. Even if all the above holds, the result is a distribution problem, not a scarcity problem, because output could be enormous—this is the abundance thesis. And the pessimistic view secretly assumes humans hold no advantage and own nothing, neither of which is foreordained: human work may command a premium for care, status, and authenticity, and if displaced workers own capital, a falling labor share can be offset by their share of the capital they are part of.

This is the crux and should be said plainly: the labor problem and the ownership problem are the same problem. A falling labor share is only a disaster if ownership is concentrated; if ownership is widely shared, the same automation is just shared abundance. That makes concentration the decisive issue, and it deserves analysis, not assertion.

Labor and Ownership Are the Same Problem

Concentration is not a law of nature; open standards and forks have a long record of dispersing power. It wins only when strong network effects meet an unforkable bottleneck: you can copy open-source code, but you cannot fork the dominant currency, license, deep liquidity pool, or override key.

Where power most likely aggregates is not AI models—they tend to commoditize—but the identity layer, the override key, and the dominant currency issuer, which earns the yield on the money it intermediates. The author sits in the last of these and says so, and he argues against his own interest: that yield is a policy choice, and what policy creates, policy can redistribute.

The same choke points that gather profit can also become weapons, history is sobering, so the dense connections that raise the cost of conflict can also be its instruments. Which way it goes depends on whether those points stay open or are captured.

Click to read Section 8:https://agenticeconomytreatise.com/treatise/section-8.html

09 The Civic Vision

If the agent economy breaks the link between labor and the share of output, the answer isn't to defend old jobs but to broaden ownership of the capital—agents, models, infrastructure, firms—now capturing value. The same architecture that, left alone, concentrates on a few choke points can distribute ownership, returns, and governance more widely than any prior system.

Expand Ownership, Not Defend Jobs

The inheritance determines scale: the joint-stock company once let strangers pool capital and share in an enterprise's success, expanding participation beyond the wealthy and royalty. The onchain economy can stretch it further because, for the first time, there are tools to grant not just ownership but governance and upside to vast numbers at near-zero administrative cost.

The idea isn't new; what's new is that the cost to act on it has become trivial. But capability is not outcome, and this section holds itself to a strict standard: list the mechanisms that actually work, including ones that cost the author himself.

Real history refuses to be whitewashed. Early movements for broad ownership failed not on the paperwork blockchain now solves, but on power.

Onchain mechanisms lower the cost of sharing ownership and remove some gatekeepers, true, but they do nothing for the power imbalances that truly killed those movements.

Worse, the default setting is recentralization: insider distributions, especially with open secondary markets, pull tokens back to the largest holders as soon as they have value; and “one-token-one-vote” is plutocracy by design. Liquidity ends up the enemy of broad ownership.

Liquidity Is the Enemy of Broad Ownership

So, the pull must be designed against with vesting through participation, limits on transfer, and caps, accepting that liquidity and breadth cannot be maximized together.

And there is a deeper trap: shared ownership is not shared power. You can give a billion people a stake in an economy, but whoever holds the final override key still controls the firm. Therefore, dispersing the override key is a separate and hard task, targeting those choke points directly.

Ownership Is Not Power

The stance is this: design for expanded ownership, and combine it with equitable capital and automation taxes, public provision of the abundance that should be universal, and a stake for the public in the value these infrastructures create. The clearest measure the author applies to his own interest is the yield on stablecoin reserves: it is a policy creation, should be competed down, and ultimately returned to the people holding that money, including issuers he is associated with.

None of this works on its own merits because the beneficiaries write the rules, so it needs countervailing force: open standards make rent-seeking unblockable, public mandates on the control layer, and a constituency of broad owners with real stakes to defend.

All of it points to a core question: if labor is no longer the path through which people gain standing and voice, perhaps ownership must become that path. Infrastructure is not fate. Whether this becomes the most balanced economy ever or the most concentrated is not a prophecy to wait for but a design problem to solve and a political fight to win. The test of whether we mean it is whether we would constrain ourselves first.

Click to read Section 9:https://agenticeconomytreatise.com/treatise/section-9.html

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Related Questions

QAccording to Jeremy Allaire's paper, what are the two converging systems that are shaping the future economic system, and why are they considered two sides of the same economy?

AThe two converging systems are the 'Intelligence System' (driven by AI models and agents) and the 'Economic System' (built on blockchains). They are considered two sides of the same economy because they mutually empower each other. The Intelligence System reduces the cost of thinking and work to near zero, while the Economic System reduces the cost of transactions to near zero. Together, they enable a new mode of economic operation where agent-driven work and on-chain value transfer are inherently intertwined.

QWhat is the 'orchestration layer' in the context of the Agentic Economy, and how does it change the role of humans in enterprises?

AThe 'orchestration layer' is a managerial agent that receives objectives, breaks them into tasks, assigns them to specialized agents, and assembles the results. It coordinates the decomposed skills of an enterprise. This changes the human role from executing work to supervising it. Humans move 'above the loop,' setting goals, defining standards, monitoring quality, and making judgment calls on when machines should stop and ask for guidance.

QWhat are the three core layers of the natively global economic architecture described in the paper?

AThe three core layers are: 1) The Money Base (stablecoins as unit of account and final settlement), 2) The Economic Operating System (coordination, contracts, and value exchange as programmable smart contracts with finality), and 3) The Agent Execution Layer (where actual work is performed by AI and cloud-powered agents).

QHow does the paper argue that the labor problem and the ownership problem are fundamentally the same issue in the Agentic Economy?

AThe paper argues that a declining share of national income going to human labor is only a disaster if ownership of capital (agents, models, infrastructure, companies) is concentrated. If ownership is widely distributed, the same automation leads to shared abundance. Therefore, the critical issue is not defending old jobs but expanding capital ownership. The concentration of power and profit determines whether the economic outcome is broadly beneficial or deeply unequal.

QWhat is the 'citizen's vision' proposed as a solution to the risks of concentration in the Agentic Economy?

AThe 'citizen's vision' proposes actively designing the economic architecture to broaden ownership, governance, and upside participation. This includes mechanisms like earned ownership, transfer restrictions, and caps to counter natural reconcentration forces. It also advocates for fair capital and automation taxes, public provisioning of abundant resources, and sharing the value generated by public infrastructure (e.g., redistributing earnings from stablecoin reserves). The goal is to use the system's capabilities to disperse power and ensure the economy serves the many, not the few.

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It accomplishes this through a customised, VM-agnostic game engine paired with a HyperGrid interpreter, facilitating sovereign game economies that roll up back to the Solana platform. The primary goals of Sonic include: Enhanced Gaming Experiences: Sonic is committed to offering lightning-fast on-chain gameplay, allowing players and developers to engage with games at previously unattainable speeds. Atomic Interoperability: This feature enables transactions to be executed within Sonic without the need to redeploy Solana programmes and accounts. This makes the process more efficient and directly benefits from Solana Layer1 services and liquidity. Seamless Deployment: Sonic allows developers to write for Ethereum Virtual Machine (EVM) based systems and execute them on Solana’s SVM infrastructure. This interoperability is crucial for attracting a broader range of dApps and decentralised applications to the platform. Support for Developers: By offering native composable gaming primitives and extensible data types - dining within the Entity-Component-System (ECS) framework - game creators can craft intricate business logic with ease. Overall, Sonic's unique approach not only caters to players but also provides an accessible and low-cost environment for developers to innovate and thrive. Creator of Sonic The information regarding the creator of Sonic is somewhat ambiguous. However, it is known that Sonic's SVM is owned by the company Mirror World. The absence of detailed information about the individuals behind Sonic reflects a common trend in several Web3 projects, where collective efforts and partnerships often overshadow individual contributions. Investors of Sonic Sonic has garnered considerable attention and support from various investors within the crypto and gaming sectors. Notably, the project raised an impressive $12 million during its Series A funding round. The round was led by BITKRAFT Ventures, with other notable investors including Galaxy, Okx Ventures, Interactive, Big Brain Holdings, and Mirana. This financial backing signifies the confidence that investment foundations have in Sonic’s potential to revolutionise the Web3 gaming landscape, further validating its innovative approaches and technologies. How Does Sonic Work? Sonic utilises the HyperGrid framework, a sophisticated parallel processing mechanism that enhances its scalability and customisability. Here are the core features that set Sonic apart: Lightning Speed at Low Costs: Sonic offers one of the fastest on-chain gaming experiences compared to other Layer-1 solutions, powered by the scalability of Solana’s virtual machine (SVM). Atomic Interoperability: Sonic enables transaction execution without redeployment of Solana programmes and accounts, effectively streamlining the interaction between users and the blockchain. EVM Compatibility: Developers can effortlessly migrate decentralised applications from EVM chains to the Solana environment using Sonic’s HyperGrid interpreter, increasing the accessibility and integration of various dApps. Ecosystem Support for Developers: By exposing native composable gaming primitives, Sonic facilitates a sandbox-like environment where developers can experiment and implement business logic, greatly enhancing the overall development experience. Monetisation Infrastructure: Sonic natively supports growth and monetisation efforts, providing frameworks for traffic generation, payments, and settlements, thereby ensuring that gaming projects are not only viable but also sustainable financially. Timeline of Sonic The evolution of Sonic has been marked by several key milestones. Below is a brief timeline highlighting critical events in the project's history: 2022: The Sonic cryptocurrency was officially launched, marking the beginning of its journey in the Web3 gaming arena. 2024: June: Sonic SVM successfully raised $12 million in a Series A funding round. This investment allowed Sonic to further develop its platform and expand its offerings. August: The launch of the Sonic Odyssey testnet provided users with the first opportunity to engage with the platform, offering interactive activities such as collecting rings—a nod to gaming nostalgia. October: SonicX, an innovative crypto game integrated with Solana, made its debut on TikTok, capturing the attention of over 120,000 users within a short span. This integration illustrated Sonic’s commitment to reaching a broader, global audience and showcased the potential of blockchain gaming. Key Points Sonic SVM is a revolutionary layer-2 network on Solana explicitly designed to enhance the GameFi landscape, demonstrating great potential for future development. HyperGrid Framework empowers Sonic by introducing horizontal scaling capabilities, ensuring that the network can handle the demands of Web3 gaming. Integration with Social Platforms: The successful launch of SonicX on TikTok displays Sonic’s strategy to leverage social media platforms to engage users, exponentially increasing the exposure and reach of its projects. Investment Confidence: The substantial funding from BITKRAFT Ventures, among others, emphasizes the robust backing Sonic has, paving the way for its ambitious future. In conclusion, Sonic encapsulates the essence of Web3 gaming innovation, striking a balance between cutting-edge technology, developer-centric tools, and community engagement. As the project continues to evolve, it is poised to redefine the gaming landscape, making it a notable entity for gamers and developers alike. As Sonic moves forward, it will undoubtedly attract greater interest and participation, solidifying its place within the broader narrative of blockchain gaming.

1.8k Total ViewsPublished 2024.04.04Updated 2024.12.03

What is SONIC

What is $S$

Understanding SPERO: A Comprehensive Overview Introduction to SPERO As the landscape of innovation continues to evolve, the emergence of web3 technologies and cryptocurrency projects plays a pivotal role in shaping the digital future. One project that has garnered attention in this dynamic field is SPERO, denoted as SPERO,$$s$. This article aims to gather and present detailed information about SPERO, to help enthusiasts and investors understand its foundations, objectives, and innovations within the web3 and crypto domains. What is SPERO,$$s$? SPERO,$$s$ is a unique project within the crypto space that seeks to leverage the principles of decentralisation and blockchain technology to create an ecosystem that promotes engagement, utility, and financial inclusion. The project is tailored to facilitate peer-to-peer interactions in new ways, providing users with innovative financial solutions and services. At its core, SPERO,$$s$ aims to empower individuals by providing tools and platforms that enhance user experience in the cryptocurrency space. This includes enabling more flexible transaction methods, fostering community-driven initiatives, and creating pathways for financial opportunities through decentralised applications (dApps). The underlying vision of SPERO,$$s$ revolves around inclusiveness, aiming to bridge gaps within traditional finance while harnessing the benefits of blockchain technology. Who is the Creator of SPERO,$$s$? The identity of the creator of SPERO,$$s$ remains somewhat obscure, as there are limited publicly available resources providing detailed background information on its founder(s). This lack of transparency can stem from the project's commitment to decentralisation—an ethos that many web3 projects share, prioritising collective contributions over individual recognition. By centring discussions around the community and its collective goals, SPERO,$$s$ embodies the essence of empowerment without singling out specific individuals. As such, understanding the ethos and mission of SPERO remains more important than identifying a singular creator. Who are the Investors of SPERO,$$s$? SPERO,$$s$ is supported by a diverse array of investors ranging from venture capitalists to angel investors dedicated to fostering innovation in the crypto sector. The focus of these investors generally aligns with SPERO's mission—prioritising projects that promise societal technological advancement, financial inclusivity, and decentralised governance. These investor foundations are typically interested in projects that not only offer innovative products but also contribute positively to the blockchain community and its ecosystems. The backing from these investors reinforces SPERO,$$s$ as a noteworthy contender in the rapidly evolving domain of crypto projects. How Does SPERO,$$s$ Work? SPERO,$$s$ employs a multi-faceted framework that distinguishes it from conventional cryptocurrency projects. Here are some of the key features that underline its uniqueness and innovation: Decentralised Governance: SPERO,$$s$ integrates decentralised governance models, empowering users to participate actively in decision-making processes regarding the project’s future. This approach fosters a sense of ownership and accountability among community members. Token Utility: SPERO,$$s$ utilises its own cryptocurrency token, designed to serve various functions within the ecosystem. These tokens enable transactions, rewards, and the facilitation of services offered on the platform, enhancing overall engagement and utility. Layered Architecture: The technical architecture of SPERO,$$s$ supports modularity and scalability, allowing for seamless integration of additional features and applications as the project evolves. This adaptability is paramount for sustaining relevance in the ever-changing crypto landscape. Community Engagement: The project emphasises community-driven initiatives, employing mechanisms that incentivise collaboration and feedback. By nurturing a strong community, SPERO,$$s$ can better address user needs and adapt to market trends. Focus on Inclusion: By offering low transaction fees and user-friendly interfaces, SPERO,$$s$ aims to attract a diverse user base, including individuals who may not previously have engaged in the crypto space. This commitment to inclusion aligns with its overarching mission of empowerment through accessibility. Timeline of SPERO,$$s$ Understanding a project's history provides crucial insights into its development trajectory and milestones. Below is a suggested timeline mapping significant events in the evolution of SPERO,$$s$: Conceptualisation and Ideation Phase: The initial ideas forming the basis of SPERO,$$s$ were conceived, aligning closely with the principles of decentralisation and community focus within the blockchain industry. Launch of Project Whitepaper: Following the conceptual phase, a comprehensive whitepaper detailing the vision, goals, and technological infrastructure of SPERO,$$s$ was released to garner community interest and feedback. Community Building and Early Engagements: Active outreach efforts were made to build a community of early adopters and potential investors, facilitating discussions around the project’s goals and garnering support. Token Generation Event: SPERO,$$s$ conducted a token generation event (TGE) to distribute its native tokens to early supporters and establish initial liquidity within the ecosystem. Launch of Initial dApp: The first decentralised application (dApp) associated with SPERO,$$s$ went live, allowing users to engage with the platform's core functionalities. Ongoing Development and Partnerships: Continuous updates and enhancements to the project's offerings, including strategic partnerships with other players in the blockchain space, have shaped SPERO,$$s$ into a competitive and evolving player in the crypto market. Conclusion SPERO,$$s$ stands as a testament to the potential of web3 and cryptocurrency to revolutionise financial systems and empower individuals. With a commitment to decentralised governance, community engagement, and innovatively designed functionalities, it paves the way toward a more inclusive financial landscape. As with any investment in the rapidly evolving crypto space, potential investors and users are encouraged to research thoroughly and engage thoughtfully with the ongoing developments within SPERO,$$s$. The project showcases the innovative spirit of the crypto industry, inviting further exploration into its myriad possibilities. While the journey of SPERO,$$s$ is still unfolding, its foundational principles may indeed influence the future of how we interact with technology, finance, and each other in interconnected digital ecosystems.

117 Total ViewsPublished 2024.12.17Updated 2024.12.17

What is $S$

What is AGENT S

Agent S: The Future of Autonomous Interaction in Web3 Introduction In the ever-evolving landscape of Web3 and cryptocurrency, innovations are constantly redefining how individuals interact with digital platforms. One such pioneering project, Agent S, promises to revolutionise human-computer interaction through its open agentic framework. By paving the way for autonomous interactions, Agent S aims to simplify complex tasks, offering transformative applications in artificial intelligence (AI). This detailed exploration will delve into the project's intricacies, its unique features, and the implications for the cryptocurrency domain. What is Agent S? Agent S stands as a groundbreaking open agentic framework, specifically designed to tackle three fundamental challenges in the automation of computer tasks: Acquiring Domain-Specific Knowledge: The framework intelligently learns from various external knowledge sources and internal experiences. This dual approach empowers it to build a rich repository of domain-specific knowledge, enhancing its performance in task execution. Planning Over Long Task Horizons: Agent S employs experience-augmented hierarchical planning, a strategic approach that facilitates efficient breakdown and execution of intricate tasks. This feature significantly enhances its ability to manage multiple subtasks efficiently and effectively. Handling Dynamic, Non-Uniform Interfaces: The project introduces the Agent-Computer Interface (ACI), an innovative solution that enhances the interaction between agents and users. Utilizing Multimodal Large Language Models (MLLMs), Agent S can navigate and manipulate diverse graphical user interfaces seamlessly. Through these pioneering features, Agent S provides a robust framework that addresses the complexities involved in automating human interaction with machines, setting the stage for myriad applications in AI and beyond. Who is the Creator of Agent S? While the concept of Agent S is fundamentally innovative, specific information about its creator remains elusive. The creator is currently unknown, which highlights either the nascent stage of the project or the strategic choice to keep founding members under wraps. Regardless of anonymity, the focus remains on the framework's capabilities and potential. Who are the Investors of Agent S? As Agent S is relatively new in the cryptographic ecosystem, detailed information regarding its investors and financial backers is not explicitly documented. The lack of publicly available insights into the investment foundations or organisations supporting the project raises questions about its funding structure and development roadmap. Understanding the backing is crucial for gauging the project's sustainability and potential market impact. How Does Agent S Work? At the core of Agent S lies cutting-edge technology that enables it to function effectively in diverse settings. Its operational model is built around several key features: Human-like Computer Interaction: The framework offers advanced AI planning, striving to make interactions with computers more intuitive. By mimicking human behaviour in tasks execution, it promises to elevate user experiences. Narrative Memory: Employed to leverage high-level experiences, Agent S utilises narrative memory to keep track of task histories, thereby enhancing its decision-making processes. Episodic Memory: This feature provides users with step-by-step guidance, allowing the framework to offer contextual support as tasks unfold. Support for OpenACI: With the ability to run locally, Agent S allows users to maintain control over their interactions and workflows, aligning with the decentralised ethos of Web3. Easy Integration with External APIs: Its versatility and compatibility with various AI platforms ensure that Agent S can fit seamlessly into existing technological ecosystems, making it an appealing choice for developers and organisations. These functionalities collectively contribute to Agent S's unique position within the crypto space, as it automates complex, multi-step tasks with minimal human intervention. As the project evolves, its potential applications in Web3 could redefine how digital interactions unfold. Timeline of Agent S The development and milestones of Agent S can be encapsulated in a timeline that highlights its significant events: September 27, 2024: The concept of Agent S was launched in a comprehensive research paper titled “An Open Agentic Framework that Uses Computers Like a Human,” showcasing the groundwork for the project. October 10, 2024: The research paper was made publicly available on arXiv, offering an in-depth exploration of the framework and its performance evaluation based on the OSWorld benchmark. October 12, 2024: A video presentation was released, providing a visual insight into the capabilities and features of Agent S, further engaging potential users and investors. These markers in the timeline not only illustrate the progress of Agent S but also indicate its commitment to transparency and community engagement. Key Points About Agent S As the Agent S framework continues to evolve, several key attributes stand out, underscoring its innovative nature and potential: Innovative Framework: Designed to provide an intuitive use of computers akin to human interaction, Agent S brings a novel approach to task automation. Autonomous Interaction: The ability to interact autonomously with computers through GUI signifies a leap towards more intelligent and efficient computing solutions. Complex Task Automation: With its robust methodology, it can automate complex, multi-step tasks, making processes faster and less error-prone. Continuous Improvement: The learning mechanisms enable Agent S to improve from past experiences, continually enhancing its performance and efficacy. Versatility: Its adaptability across different operating environments like OSWorld and WindowsAgentArena ensures that it can serve a broad range of applications. As Agent S positions itself in the Web3 and crypto landscape, its potential to enhance interaction capabilities and automate processes signifies a significant advancement in AI technologies. Through its innovative framework, Agent S exemplifies the future of digital interactions, promising a more seamless and efficient experience for users across various industries. Conclusion Agent S represents a bold leap forward in the marriage of AI and Web3, with the capacity to redefine how we interact with technology. While still in its early stages, the possibilities for its application are vast and compelling. Through its comprehensive framework addressing critical challenges, Agent S aims to bring autonomous interactions to the forefront of the digital experience. As we move deeper into the realms of cryptocurrency and decentralisation, projects like Agent S will undoubtedly play a crucial role in shaping the future of technology and human-computer collaboration.

783 Total ViewsPublished 2025.01.14Updated 2025.01.14

What is AGENT S

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